RFmxTdscdmaMXPropertyId Enumeration

Specifies whether to enable the ModAcc measurement.

Specifies whether to enable averaging for the ModAcc measurement.

Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(string, RFmxTdscdmaMXModAccAveragingEnabled) method to True.

Specifies the synchronization mode for the ModAcc measurement.

Specifies the measurement offset that is skipped by the ModAcc measurement from the synchronization boundary. This value is expressed in traffic slots. The synchronization boundary is specified by the SetSynchronizationMode(string, RFmxTdscdmaMXModAccSynchronizationMode) method.

Specifies the measurement length for the ModAcc measurement. This value is expressed in traffic slots.

Specifies whether the spectrum of the signal is inverted.

Specifies whether to remove the I/Q offset before the EVM measurement.

Specifies whether to remove the I/Q gain imbalance before the ModAcc measurement.

Specifies whether to remove the I/Q quadrature error before the ModAcc measurement.

Specifies whether to enable the RRC filter in the ModAcc measurement. Use this method to disable the filter if the received signal is already RRC-filtered.

Specifies whether to enable the traces to be stored and retrieved after performing the ModAcc measurement.

Returns the RMS of the composite EVM, averaged over all active time slots and all averaging iterations. This value is expressed as a percentage.

Returns the peak composite EVM among all active time slots. This value is expressed as a percentage. The value of the peak composite EVM is averaged over all averaging iterations.

Returns the RMS of the composite magnitude error averaged over all active time slots and averaging iterations. This value is expressed as a percentage.

Returns the RMS of the composite phase error, averaged over all active time slots and averaging iterations. This value is expressed in degrees.

Returns the I/Q origin offset of the composite signal, averaged over all measured slots. This value is expressed in dB.

Returns the I/Q gain imbalance of the composite signal, averaged over all measured slots. This value is expressed in dB.

Returns the I/Q quadrature error of the composite signal, averaged over all measured slots. This value is expressed in degrees.

Returns the frequency error averaged over all measured slots. This value is expressed in Hz.

Returns the chip rate error. This value is expressed in ppm.

Returns the composite value of rho, averaged over all active time slots and all averaging iterations.

Returns the maximum value of the time-slot based composite rho among all averaging iterations.

Returns the RMS of the midamble EVM, averaged over all active time slots and all averaging iterations. This value is expressed as a percentage.

Returns the value of the slot based peak midamble EVM among all active time slots. This value is expressed as a percentage. The value is averaged over all averaging iterations.

Returns the RMS of the midamble magnitude error, averaged over all active time slots and averaging iterations. This value is expressed as a percentage.

Returns the RMS of the midamble phase error, averaged over all active time slots and all averaging iterations. This value is expressed in degrees.

Returns the rho value of the midamble, averaged over all measured active time slots and averaging iterations.

Returns the midamble power, averaged over all measured slots. This value is expressed in dBm.

Returns the midamble code.

Returns the midamble code shift. This value is expressed in chips.

Returns the RMS of the data EVM, averaged over all active time slots and all averaging iterations. This value is expressed as a percentage.

Returns the value of the slot based peak data EVM among all active time slots. This value is expressed as a percentage. The slot based peak data EVM value is averaged over all averaging iterations.

Returns the RMS of the data magnitude error, averaged over all active time slots and all averaging iterations. This value is expressed as a percentage.

Returns the RMS of the data phase error, averaged over all active time slots and all averaging iterations. This value is expressed in degrees.

Returns the data rho value, averaged over all active time slots and all averaging iterations.

Returns the value of the peak code domain errors (CDEs) among all active time slots. This value is expressed in dB. The peak CDE value is averaged over all averaging iterations.

Returns the peak code domain error (CDE) among all active time slots and averaging iterations. This value is expressed in dB.

Returns the spreading factor used to retrieve the peak code domain error (CDE) of the channel corresponding to measured value of the GetMaximumPeakDataCde(string, out double) method.

Returns the peak channelization code of the channel corresponding to the measured value of the GetMaximumPeakDataCde(string, out double) method.

Returns the value of the peak data active code domain errors (CDEs) among all physical channels and active time slots. This value is expressed in dB. The peak data active CDEs are averaged over all averaging iterations.

Returns the maximum value of the peak data active code domain errors (CDEs) among all active physical channels and active time slots. This value is expressed in dB.

Returns the spreading factor used to retrieve the peak code domain error (CDE) of the active physical channel corresponding to the measured value of the GetMaximumPeakDataActiveCde(string, out double) method.

Returns the peak channelization code of the channel corresponding to the measured value of the GetMaximumPeakDataActiveCde(string, out double) method.

Returns the number of channels used to determine the peak active code domain error (CDE).

Returns the value of the peak data relative code domain errors (RCDEs) among all active time slots and averaging iterations. This value is expressed in dB.

Returns the maximum value of the peak relative code domain error (RDCEs) among all active time slots and averaging iterations. This value is expressed in dB.

Returns the spreading factor of the channel corresponding to the value of the measured GetMaximumPeakDataRcde(string, out double) method.

Returns the channelization code of the channel corresponding to the value of the measured GetMaximumPeakDataRcde(string, out double) method.

Returns the data field 1 power, averaged over all measured active time slots. This value is expressed in dBm.

Returns the data field 2 power, averaged over all measured active time slots. This value is expressed in dBm.

Returns the number of detected active channels. If the averaging is enabled, this method returns the number of detected channels of the last averaging iteration.

Returns the slot index of the detected channel within the set of active channels. If the averaging is enabled, this method refers to the last averaging iteration. Use "channel(n)" as the selector string to read this result.

Returns the spreading factor of the selected channel within the set of active channels. If the averaging is enabled, this method refers to the last averaging iteration. Use "channel(n)" as the selector string to read this result.

Returns the modulation type of the selected channel within the set of active channels. If the averaging is enabled, this method refers to the last averaging iteration. Use "channel(n)" as the selector string to read this result.

Returns the channelization code of the selected channel within the set of active channels. If the averaging is enabled, this method refers to the last averaging iteration. Use "channel(n)" as the selector string to read this result.

Specifies whether to enable the ACP measurement.

Returns the ACP carrier integration bandwidth. This value is expressed in Hz.

Specifies the number of offsets for the ACP measurement.

Returns the frequency of an ACP offset channel, relative to the carrier frequency. This value is expressed in Hz.

Returns the integration bandwith of an ACP offset channel. This value is expressed in Hz.

Specifies whether the measurement calculates the RBW.

Specifies the bandwidth of the RBW filter used to sweep the acquired signal when you set the SetRbwFilterAutoBandwidth(string, RFmxTdscdmaMXAcpRbwAutoBandwidth) method to False. This value is expressed in Hz.

Specifies the shape of the digital RBW filter.

Specifies whether the measurement calculates the sweep time.

Specifies the sweep time when you set the SetSweepTimeAuto(string, RFmxTdscdmaMXAcpSweepTimeAuto) method to False. This value is expressed in seconds.

Specifies the method for performing the ACP measurement.

Specifies the FFT size when you set the SetMeasurementMethod(string, RFmxTdscdmaMXAcpMeasurementMethod) method to SequentialFft.

Specifies whether to enable compensation of the channel powers for the inherent noise floor of the signal analyzer. Supported Devices: PXIe-5663/5665/5668R, PXIe-5830/5831/5832

Specifies whether to enable averaging for the ACP measurement.

Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(string, RFmxTdscdmaMXAcpAveragingEnabled) method to True.

Specifies the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for ACP measurement.

Specifies whether the measurement calculates an IF output power level offset for the offset channels to improve the dynamic range of the ACP measurement. This method is used only if you set the SetMeasurementMethod(string, RFmxTdscdmaMXAcpMeasurementMethod) method to DynamicRange.

Specifies the offset by which to adjust the IF output power level for offset channels that are near the carrier channel to improve the dynamic range. This value is expressed in dB. This method is used only if you set the SetMeasurementMethod(string, RFmxTdscdmaMXAcpMeasurementMethod) method to DynamicRange and set the SetIFOutputPowerOffsetAuto(string, RFmxTdscdmaMXAcpIFOutputPowerOffsetAuto) method to False.

Specifies the offset by which to adjust the IF output power level for offset channels that are far from the carrier channel to improve the dynamic range. This value is expressed in dB. This method is used only if you set the SetMeasurementMethod(string, RFmxTdscdmaMXAcpMeasurementMethod) method to DynamicRange and set the SetIFOutputPowerOffsetAuto(string, RFmxTdscdmaMXAcpIFOutputPowerOffsetAuto) method to False.

Specifies whether to enable the traces to be stored and retrieved after performing the ACP measurement.

Specifies the maximum number of threads used for parallelism for the ACP measurement.

Returns the absolute measured carrier power. This value is expressed in dBm.

Returns the absolute measured lower offset channel power. This value is expressed in dBm. Use "offset(n)" as the selector string to read this result.

Returns the lower offset channel power measured relative to the integrated power of the power reference carrier. This value is expressed in dB. Use "offset(n)" as the selector string to read this result.

Returns the absolute measured upper offset channel power. This value is expressed in dBm. Use "offset(n)" as the selector string to read this result.

Returns the upper offset channel power measured relative to the integrated power of the power reference carrier. This value is expressed in dB. Use "offset(n)" as the selector string to read this result.

Specifies whether to enable the CHP measurement.

Returns the CHP carrier integration bandwidth. This value is expressed in Hz.

Specifies whether the measurement calculates the RBW.

Specifies the bandwidth of the RBW filter used to sweep the acquired signal when you set the SetRbwFilterAutoBandwidth(string, RFmxTdscdmaMXChpRbwAutoBandwidth) method to False. This value is expressed in Hz.

Specifies the shape of the digital RBW filter.

Specifies whether the measurement calculates the sweep time.

Specifies the sweep time when you set the SetSweepTimeAuto(string, RFmxTdscdmaMXChpSweepTimeAuto) method to False. This value is expressed in seconds.

Specifies whether to enable averaging for the CHP measurement.

Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(string, RFmxTdscdmaMXChpAveragingEnabled) method to True.

Specifies the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for the CHP measurement.

Specifies whether to enable the traces to be stored and retrieved after performing the CHP measurement.

Specifies the maximum number of threads used for parallelism for the CHP measurement.

Returns the averaged CHP measured in the specified integration bandwidth. This value is expressed in dBm.

Specifies whether to enable the OBW measurement.

Returns the frequency span of the OBW measurement. This value is expressed in Hz.

Specifies whether the measurement calculates the RBW.

Specifies the bandwidth of the RBW filter used to sweep the acquired signal when you set the SetRbwFilterAutoBandwidth(string, RFmxTdscdmaMXObwRbwAutoBandwidth) method to False. This value is expressed in Hz.

Specifies the shape of the digital RBW filter.

Specifies whether the measurement calculates the sweep time.

Specifies the sweep time when you set the SetSweepTimeAuto(string, RFmxTdscdmaMXObwSweepTimeAuto) method to False. This value is expressed in seconds.

Specifies whether to enable averaging for the OBW measurement.

Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(string, RFmxTdscdmaMXObwAveragingEnabled) method to True.

Specifies the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for the OBW measurement.

Specifies whether to enable storage and retrieval of the traces after performing the OBW measurement.

Specifies the maximum number of threads used for parallelism for the OBW measurement.

Returns the bandwidth that occupies 99% of the total signal power. This value is expressed in Hz.

Returns the absolute power measured in the OBW. This value is expressed in dBm.

Returns the start frequency of the OBW. This value is expressed in Hz.

Returns the stop frequency of the OBW. This value is expressed in Hz.

Specifies whether to enable the SEM measurement.

Returns the SEM carrier integration bandwidth. This value is expressed in Hz.

Returns the number of SEM offset segments.

Returns the start frequency of an SEM offset segment, relative to the carrier frequency. This value is expressed in Hz.

Returns the stop frequency of an SEM offset segment, relative to the carrier frequency. This value is expressed in Hz.

Returns the bandwidth of the RBW filter used to sweep the offset segment. This value is expressed in Hz.

Returns the the type of RBW filter used to sweep the offset segment.

Returns the bandwidth integral for a specific offset segment. A bandwidth integral greater than 1 indicates that an RBW filter of a narrower bandwidth is used for the offset segment measurement, and digital processing is used to achieve the RBW defined for the offset segment. The offset segment RBW is calculated using the following formula: offset segment RBW = RBW * BW integral.

Specifies whether the measurement calculates the sweep time.

Specifies the sweep time when you set the SetSweepTimeAuto(string, RFmxTdscdmaMXSemSweepTimeAuto) method to False. This value is expressed in seconds.

Specifies whether to enable averaging for the SEM measurement.

Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(string, RFmxTdscdmaMXSemAveragingEnabled) method to True.

Specifies the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for the SEM measurement.

Specifies whether to enable the traces to be stored and retrieved after performing the SEM measurement.

Specifies the maximum number of threads used for parallelism for the SEM measurement.

Indicates the overall measurement status based on the measurement limits specified by the standard for each offset segment.

Returns the measurement absolute carrier power. This value is expressed in dBm.

Indicates the lower offset segment measurement status based on the measurement limits specified by the standard. Use "offset(n)" as the selector string to read this result.

Returns the absolute power measured in the lower (negative) offset segment. This value is expressed in dBm. Use "offset(n)" as the selector string to read this result.

Returns the power measured in the lower (negative) offset segment relative to the integrated power of the reference carrier. This value is expressed in dB. Use "offset(n)" as the selector string to read this result.

Returns the peak absolute power measured in the lower (negative) offset segment. This value is expressed in dBm. Use "offset(n)" as the selector string to read this result.

Returns the peak power measured in the lower (negative) offset segment relative to the peak power of the reference carrier. This value is expressed in dB. Use "offset(n)" as the selector string to read this result.

Returns the frequency at which the peak power occurred in the lower offset segment. This value is expressed in Hz. Use "offset(n)" as the selector string to read this result.

Returns the margin from the limit mask. This value is expressed in dB. Margin is defined as the minimum distance between the spectrum and the limit mask. Use "offset(n)" as the selector string to read this result.

Returns the absolute power at which the margin occurred in the lower (negative) offset segment. This value is expressed in dBm. Use "offset(n)" as the selector string to read this result.

Returns the power at which the margin occurred in the lower (negative) offset segment relative to the integrated power of the reference carrier. This value is expressed in dB. Use "offset(n)" as the selector string to read this result.

Returns the frequency at which the margin occurred in the lower (negative) offset segment. This value is expressed in Hz. Use "offset(n)" as the selector string to read this result.

Indicates the upper offset measurement status based on measurement limits specified by the standard. Use "offset(n)" as the selector string to read this result.

Returns the absolute power measured in the upper (positive) offset segment. Use "offset(n)" as the selector string to read this result.

Returns the power measured in the upper (positive) offset segment relative to the integrated power of the reference carrier. This value is expressed in dB. Use "offset(n)" as the selector string to read this result.

Returns the peak absolute power measured in the upper (positive) offset segment. Use "offset(n)" as the selector string to read this result.

Returns the peak power measured in the upper (positive) offset segment relative to the integrated power of the reference carrier. Use "offset(n)" as the selector string to read this result.

Returns the frequency at which the peak power occurred in the upper offset segment. This value is expressed in Hz. Use "offset(n)" as the selector string to read this result.

Returns the margin from the limit mask value specified by the standard. This value is expressed in dB. Margin is defined as the minimum distance between the spectrum and the limit mask. Use "offset(n)" as the selector string to read this result.

Returns the power at which the margin occurred in the upper (positive) offset segment, relative to the integrated or peak power of the reference carrier. This value is expressed in dBm. Use "offset(n)" as the selector string to read this result.

Returns the power at which the margin occurred in the upper (positive) offset segment. This value is expressed in dBm. Use "offset(n)" as the selector string to read this result.

Returns the frequency at which the margin occurred in the upper (positive) offset. This value is expressed in Hz. Use "offset(n)" as the selector string to read this result.

Specifies whether to enable the code domain analysis (CDA) measurement.

Specifies whether to enable averaging for the code domain analysis (CDA) measurement.

Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(string, RFmxTdscdmaMXCdaAveragingEnabled) method to True.

Specifies the synchronization mode for the code domain analysis (CDA) measurement. Currently, only the Slot mode is supported.

Specifies the measurement offset to skip from the synchronization boundary. This value is expressed in slots. The synchronization boundary is specified by the SetSynchronizationMode(string, RFmxTdscdmaMXCdaSynchronizationMode) method.

Specifies the base spreading factor for code domain analysis.

Specifies the spreading factor of the channel on which to perform the code domain analysis (CDA) measurement.

Specifies the channelization code of the code domain analysis (CDA) measurement channel.

Specifies whether the spectrum of the signal is inverted.

Specifies whether to remove the I/Q offset before the code domain analysis (CDA) measurement.

Specifies whether to remove the I/Q gain imbalance before the code domain analysis (CDA) measurement.

Specifies whether to remove the I/Q quadrature error before the code domain analysis (CDA) measurement.

Specifies the measurement unit of the code domain power (CDP) results.

Specifies whether to enable the RRC filter.

Specifies whether to enable the traces to be stored and retrieved after performing the code domain analysis (CDA) measurement.

Specifies the maximum number of threads used for parallelism for the code domain analysis (CDA) measurement. The number of threads can range from 1 to the number of physical cores. The number of threads you set may not be used in calculations. The actual number of threads used depends on the problem size, system resources, data availability, and other considerations.

Returns the mean symbol power for the selected time slot and channel. This value is expressed in dB if you set the SetPowerUnit(string, RFmxTdscdmaMXCdaPowerUnit) method to dB, or in dBm if you set the CDA Pwr Unit method to dBm.

Returns the RMS symbol EVM for the selected time slot and channel, averaged over all averaging iterations. This value is expressed as a percentage.

Returns the maximum value of the peak symbol EVMs, among all averaging iterations for the selected time slot and channel. This value is expressed as a percentage.

Returns the RMS symbol magnitude error for the selected time slot and channel, averaged over all averaging iterations. This value is expressed as a percentage.

Returns the RMS symbol phase error for the selected time slot and channel, averaged over all averaging iterations. This value is expressed in degrees.

Returns the I/Q origin offset of the composite signal, averaged over all measured slots. This value is expressed in dB.

Returns the I/Q gain imbalance of the composite signal, averaged over all measured slots. This value is expressed in dB.

Returns the I/Q quadrature error of the composite signal, averaged over all measured slots. This value is expressed in degrees.

Returns the frequency error averaged over all measured slots. This value is expressed in Hz.

Returns the chip rate error. This value is expressed in ppm.

Returns the total power measured in the code domain of the base spreading factor, averaged over all averaging iterations. This value is expressed in dBm.

Returns the maximum value of the power measured in the code domain of the base spreading factor among all averaging iterations. This value is expressed in dBm.

Returns the total active code power measured in the code domain of the base spreading factor, normalized to the total code domain power (CDP). This value is expressed in dB, if you set the SetPowerUnit(string, RFmxTdscdmaMXCdaPowerUnit) method to dB, or in dBm, if you set the CDA Pwr Unit method to dBm. The total active code power is averaged over all averaging iterations.

Returns the maximum value, among all averaging iterations, of total power measured in the code domain of the base spreading factor normalized to the total code domain power. This value is expressed in dB, if you set the SetPowerUnit(string, RFmxTdscdmaMXCdaPowerUnit) method to dB, or in dBm, if you set the CDA Pwr Unit method to dBm.

Returns the average of the active code power measured in the code domain of the base spreading factor, normalized to the total code domain power (CDP). This value is expressed in dB, if you set the SetPowerUnit(string, RFmxTdscdmaMXCdaPowerUnit) method to dB, or in dBm, if you set the CDA Pwr Unit method to dBm.

Returns the maximum value among all averaging iterations of the maximum active code power measured in the code domain of the base spreading factor, normalized to the total code domain power (CDP). This value is expressed in dB, if you set the SetPowerUnit(string, RFmxTdscdmaMXCdaPowerUnit) method to dB, or in dBm, if you set the CDA Pwr Unit method to dBm.

Returns the average code power measured among the set of inactive channels in the code domain of the base spreading factor, normalized to the total code domain power (CDP). This value is expressed in dB, if you set the SetPowerUnit(string, RFmxTdscdmaMXCdaPowerUnit) method to dB, or in dBm, if you set the CDA Pwr Unit method to dBm.

Returns the maximum value among all averaging iterations of the highest measured code power among the set of inactive channels in the code domain of the base spreading factor, normalized to the total code domain power (CDP). This value is expressed in dB, if you set the SetPowerUnit(string, RFmxTdscdmaMXCdaPowerUnit) method to dB, or in dBm, if you set the CDA Pwr Unit method to dBm.

Specifies whether to enable the power versus time (PVT) measurement (Transmit ON/off time mask) according to the 3GPP TS 34.122 specification.

Specifies the method for performing the power versus time (PVT) measurement.

Specifies whether to enable the RRC filter. Use this method to disable the filter if the received signal is already RRC-filtered.

Specifies whether to enable averaging for the power versus time (PVT) measurement.

Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(string, RFmxTdscdmaMXPvtAveragingEnabled) method to True.

Specifies the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for the power versus time (PVT) measurement.

Specifies whether to enable the traces to be stored and retrieved after performing the power versus time (PVT) measurement.

Specifies the maximum number of threads used for parallelism for the power versus time (PVT) measurement.

Returns the number of segments defined for the power versus time (PVT) measurement.

Returns the start time of a specific power versus time (PVT) measurement segment. This value is expressed in seconds. The start time is defined relative to the burst start.

Returns the stop time of a specific power versus time (PVT) measurement segment. This value is expressed in seconds. The start time is defined relative to the burst start.

Returns the overall status of the power versus time (PVT) measurement.

Returns the mean ON power of the measured burst, or the averaged bursts. This value is expressed in dBm.

Returns the mean OFF power of the measured burst, or the averaged bursts. This value is expressed in dBm.

Returns the maximum power of the measured burst, or the averaged bursts. This value is expressed in dBm.

Returns the minimum observed power of the measured burst, or the averaged bursts. This value is expressed in dBm.

Returns the time interval between the time positions where the signal amplitude has reached 90 percent of the full amplitude. This value is expressed in seconds.

Returns the measurement status for an individual power versus time (PVT) measurement segment.

Returns the power margin for an individual power versus time (PVT) measurement segment, which is the minimum power distance to the power limit measured within the PVT measurement segment. This value is expressed in dB.

Returns the position in time corresponding to the GetSegmentMargin(string, out double) method. This value is expressed in seconds.

Returns the mean measured power corresponding to the GetSegmentMargin(string, out double) method. This value is expressed in dBm.

Returns the maximum measured power of an individual power versus time (PVT) measurement segment. This value is expressed in dBm.

Returns the minimum measured power of an individual power versus time (PVT) measurement segment. This value is expressed in dBm.

Returns the midamble code used for slot synchronization.

Returns the midamble code shift used for slot synchronization. This value is expressed in chips.

Specifies the set of properties that are considered by RFmx in the locked signal configuration state.

Specifies the time to wait before results are available in the RFmx driver. This value is expressed in seconds. Set this value to a time longer than expected for fetching the measurement. A value of -1 specifies that the RFmx driver waits until the measurement is complete.

Specifies the carrier frequency of the RF signal to acquire. The signal analyzer tunes to this frequency. This value is expressed in Hz.

Specifies the reference level that represents the maximum expected power of the RF input signal. This value is expressed in dBm for RF devices and V_pk-pk for baseband devices.

Specifies the level of external attenuation that is considered by the selected measurement. This value is expressed in dB.

Specifies the trigger type.

Specifies the source terminal for the digital edge trigger. This method is used only when you set the SetTriggerType(string, RFmxTdscdmaMXTriggerType) method to DigitalEdge.

Specifies the active edge for the trigger. This method is used only when you set the SetTriggerType(string, RFmxTdscdmaMXTriggerType) method to DigitalEdge.

Specifies the channel from which the device monitors the trigger. This method is used only when you set the SetTriggerType(string, RFmxTdscdmaMXTriggerType) method to IQPowerEdge.

Specifies the threshold above or below which the signal analyzer triggers, depending on the value of the SetIQPowerEdgeTriggerSlope(string, RFmxTdscdmaMXIQPowerEdgeTriggerSlope) method. This value is expressed in dB when the SetIQPowerEdgeTriggerLevelType(string, RFmxTdscdmaMXIQPowerEdgeTriggerLevelType) method is set to Relative or in dBm when the IQ Power Edge Level Type method is set to Absolute.

Specifies the reference for the SetIQPowerEdgeTriggerLevel(string, double) method. This method is used only when you set the SetTriggerType(string, RFmxTdscdmaMXTriggerType) method to IQPowerEdge.

Specifies whether the device asserts the trigger when the signal power is rising or when the signal power is falling. The device asserts the trigger when the signal power exceeds the specified level with the slope you specify. This method is used only when you set the SetTriggerType(string, RFmxTdscdmaMXTriggerType) method to IQPowerEdge.

Specifies the trigger delay time. This value is expressed in seconds.

Specifies whether the measurement calculates the minimum quiet time used for triggering.

Specifies the time duration for which the signal must be quiet before the signal analyzer arms the I/Q power edge trigger. This value is expressed in seconds. If you set the SetIQPowerEdgeTriggerSlope(string, RFmxTdscdmaMXIQPowerEdgeTriggerSlope) method to Rising, the signal is quiet below the trigger level. If you set the IQ Power Edge Slope method to Falling, the signal is quiet above the trigger level.

Specifies whether to detect the channels automatically or to use a specified channel configuration.

Specifies the number of user-defined channels. This method is used only when you set the SetChannelConfigurationMode(string, RFmxTdscdmaMXChannelConfigurationMode) method to UserDefined.

Specifies the channel type of the user-defined channel. This method is used only when you set the SetChannelConfigurationMode(string, RFmxTdscdmaMXChannelConfigurationMode) method to UserDefined. Use "channel(n)" as the selector string to configure or read this method.

Specifies the slot index of the user-defined channel. This method is used only when you set the SetChannelConfigurationMode(string, RFmxTdscdmaMXChannelConfigurationMode) method to UserDefined. Use "channel(n)" as the selector string to configure or read this method.

Specifies the modulation type of the user-defined channel. This method is used only when you set the SetChannelConfigurationMode(string, RFmxTdscdmaMXChannelConfigurationMode) method to UserDefined. Use "channel(n)" as the selector string to configure or read this method.

Specifies the spreading factor, the number of TFCI code words, the number of transmit power control bits, and the number of synchronization shift bits. This method is used only when you set the SetChannelConfigurationMode(string, RFmxTdscdmaMXChannelConfigurationMode) method to UserDefined. Use "channel(n)" as the selector string to configure or read this method.

Specifies the channelization code of the user-defined channel. This method is used only when you set the SetChannelConfigurationMode(string, RFmxTdscdmaMXChannelConfigurationMode) method to UserDefined. Use "channel(n)" as the selector string to configure or read this method.

Specifies the scrambling code and the basic midamble code for uplink transmission.

Specifies the midamble auto detection mode.

Configures the maximum number of users.

Specifies the midamble shift used when you set the SetMidambleAutoDetectionMode(string, RFmxTdscdmaMXMidambleAutoDetectionMode) method to Off. This value is expressed in chips.

Specifies the initial reference level that the AutoLevel(string, double, out double) function uses to estimate the peak power of the input signal. This value is expressed in dBm.

Specifies the SYNC-UL code used by the uplink pilot time slot (UpPTS). This method is used when the SetSynchronizationMode(string, RFmxTdscdmaMXModAccSynchronizationMode) method is set to Subframe, or the SetSlotType(string, RFmxTdscdmaMXModAccSlotType) method is set to Pilot.

Specifies the type of the time slot for the ModAcc measurement.

Returns the RMS of the pilot EVM, averaged over all averaging iterations. This value is expressed as a percentage.

Returns the maximum of the peak pilot EVM among the averaging iterations. This value is expressed as a percentage.

Returns the RMS of the pilot magnitude error, averaged over all the averaging iterations. This value is expressed as a percentage.

Returns the RMS of the pilot phase error, averaged over all averaging iterations. This value is expressed in degrees.

Returns the pilot Rho value, averaged over all averaging iterations.

Specifies whether to enable the SlotPower measurement.

Specifies the measurement length for the SlotPower measurement. This value is expressed in slots. The SlotPower measurement assumes that there is only one active traffic time slot per subframe, and that the position of this active time slot is the same in each subframe. Additionally, it assumes that there are no pilots present in the received signal.

Specifies whether the spectrum of the signal is inverted.

Specifies whether the RRC filter should be enabled or not.

Specifies the instrument port to be configured to acquire a signal. Use RFmxInstrMX.GetAvailablePorts Method to get the valid port names.

Specifies the margin RFmx adds to the Reference Level method. The margin avoids clipping and overflow warnings if the input signal exceeds the configured reference level.

Specifies how overlapping is applied when computing the FFT of the acquired samples.

Returns the number of samples to overlap between consecutive chunks while performing FFT.

This property has been obsoleted. It Specifies the midamble code.